GIS based Composite Delhi Metro Map for Reduced Vehicular Pollution
Dr. Subhan Khan, Mr. Deepak Goel & Ms. Gulshan National Institute of Science, Technology and Development Studies (NISTADS) CSIR, Dr. K.S. Krishnan Marg, Pusa Gate, New Delhi - 110 012 Phone: (+91-11) - 2584 1758 Fax: (+91-11) - 2584 2382 Email: subhankhan1@yahoo.com, deepakgo@rediffmail.com, gul_75@rediffmail.com
According to a report3 of the high powered committee on comprehensive action plan on environment & pollution control in Delhi submitted in 1994, vehicular pollution accounts for more than 2/3rd of the total air pollution in Delhi. In the year 1991, the quantity of emissions is estimated to have increased from 670 MT/day in the year 1987 to about 1800 MT/day. Though transport department of Delhi has launched a vigorous drive for checking vehicular pollution and accordingly 117 petrol pumps have been authorized to check vehicular pollution and also allowed to issue pollution control certificates/fitness certificates. Consequently, more than 13.5 lakh vehicles have been checked, out of which about 4.5 lakh vehicles were found polluting beyond the standards during March 1990 and June 1994 by the state transport department. It had made 10 special squads for enforcing the vehicular pollution. These squads have challaned 34,888 vehicles and has cancelled more than 95,000 pollution under control (PUC) certificates and more than 8,000 certificate of fitness (COF) during April 1990 and June 1994. The department has challaned about 798 vehicles at an average of four vehicles per day, at six out of the seven identified critical locations, during January and July 1994. The Ministry of Surface Transport has also specified mass standards for vehicles at the manufacturing stage effective from 1996.
It was observed that steep rise in vehicular pollution in Delhi is attributable to corresponding steep rise in the number of all registered vehicles in the city. An analysis of last 14 years i.e. 1971-94 shows this trend quiets significantly. In Delhi, in 1994, the motorcycles and scooters constitute 66.64% followed by cars and jeeps (23.32%). The goods vehicles were 5.2% followed by auto-rickshaws (3.22%), buses (1.08%) and taxies (0.53%). GIS database of these vehicles as well as the details of the rail network facilities helps developing system for easier maintenance, high quality treatment and thus application of information in much mode is necessary for effective and economic decision making, therefore the analysis and application of GIS for rail transport only using PC ARC/INFO along with other software such as AutoCAD Map, MapInfo used in this application are discussed here. It is noted during the exercise that a large amount of information have to be processed and for quality information and therefore higher quantity of system storage for applications such as metro rails, require highly efficient information technology systems. In particular, there are many conditions, which are still valid within rail transport, therefore it is necessary to keep certain register systems of rail links as well, especially from the point of view of the placement of the rail network basic facilities. Such arrangement will help to increase transport efficiency and fluidity and decrease fault liability and the number of accidents to a greater accident. Further, such system will also reduce maintenance, services and designing expenses. The high number of specifications concerning e.g. objects placed in existing areas, towns, institutions and/or authorities need to be maintained. The use of GIS is extremely advantageous for urban networks such as railway network and road network as found in earlier study as well4. The need while using a GIS is to create an open system, as during its future use other needs may occur, which are to be taken into account in the base analysis and preparation of original functional GIS version. All GIS components must be able to work with standard formats, both text and graphic. Thus, there must be full data compatibility of the different computer programmes used within the newly built GIS. "Acquiring a quality map base may be a relatively costly but necessary. However, it may take years to build the system, so it is very important to utilize existing map bases"4. Such studies also explain the possibility of GIS applications in similar areas to display a train network within one map and also to create data tables connected directly to a digitized map, which enable a complex network to be easily and economically maintained or repaired and partially or completely reconstructed. Therefore such a GIS system can find the necessary data quickly and effectively and does not require a large amount of valuable storage space etc. Hence, one can create a unified GIS system for metro rail. Delhi metro GIS may assists in implementing major recommendations and suggestions such as follows, which are based on the considerations of all the inputs relating to the vehicular pollution problems in Delhi and are based on the points raised and valuable suggestions made in the report of the high powered committee on comprehensive action plan on environment & pollution control in Delhi3 :
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